boiler manual - jhplumb.com · this manual is accurate at the date of printing (e&oe) but will...
TRANSCRIPT
Boiler ManualIncorporating: Guarantee Registration User Instructions Installation Instructions Service Instructions Service Record
High Efficiency Condensing BoilersFor use with kerosene only
Models covered by this manual:
U-SeriesUtility U70HE U90HE U120HE U150HEUtility Pumped UP70HE UP90HE UP120HE UP150HEUtility System US70HE US90HE US120HEUtility Combi UC70HE UC90HE
K-SeriesKabin Pak K70HE K90HE K120HE K150HEKabin Pak Pumped KP70HE KP90HE KP120HE KP150HEKabin Pak System KS70HE KS90HE KS120HEKabin Pak Combi KC70HE KC90HE
Leave this manuaL with the end user
This manual is accurate at the date of printing (E&OE) but will be superseded and should be disregarded if specifications and/or appearances are changed in the interests of continued product improvement. Code 3307
ISSUE 3AUG 08
LisBurnLissue Industrial Estate, Moira Road,
Lisburn, Co Antrim, N Ireland, BT28 2RFTel: (028) 9262 1515Fax: (028) 9262 0869
Email: [email protected]@[email protected]
manChester144 Bradford Road,
Manchester, M40 7ASTel: (0161) 205 4202Fax: (0161) 205 4818
Email: [email protected]@[email protected]
Commissioning
This appliance must be commissioned. Failure to commission the boiler will invalidate the warranty. After commissioning ensure that the attached
guarantee registration card is completed and returned. Alternatively, you can register your guarantee online at www.warmflow.co.uk
Servicing
To ensure continued reliable operation and fuel economy it is recommended that the boiler is serviced annually by
a Warmflow or an OFTEC registered technician.
NI Customers Only
Warmflow Engineering Service division (NI) provides an excellent back-up service, operating a team of OFTEC trained engineers who can meet all the servicing, commissioning and breakdown requirements for your appliance.
Telephone: 0870 240 6532Fax: 028 9262 2827
Email: [email protected]: www.warmflow.co.uk
For Parts, Service Technical & Warranty Contact
Great Britain & N Ireland, Tel: 0870 240 6532Republic of Ireland, Tel: 048 9262 1515
Page �
Contents Page
UserInstructions .....................................................................................................................................................................2
CondensingBoilerInstallationRequirements ......................................................................................................................4
CondensingCombiBoilerPre-InstallationRequirements...................................................................................................5
1.0 GeneralInformation �.� Introduction .....................................................................................................................................................6 �.2 General Requirements .....................................................................................................................................6 �.3 Combi General Requirements ..........................................................................................................................7 �.4 Baffle Positioning .............................................................................................................................................8 �.5 Components ...................................................................................................................................................9
2.0 TechnicalDetails 2.� Combi Sequence of Operation Flow Chart ....................................................................................................�8 2.2 Dimensions ...................................................................................................................................................�9 2.3 Flue Options, Components & Dimensions......................................................................................................24 2.4 Condensate Disposal ....................................................................................................................................27 2.5 Technical Data ...............................................................................................................................................28
3.0 ElectricitySupply&WiringDetails 3.� Dual-Safe Thermostat (Non-Combi Boilers) ...................................................................................................36 3.2 RDB Burner Control Box ...............................................................................................................................36 3.3 Combi Wiring Details .....................................................................................................................................37 3.4 Installation of a Combi Optional Programmer (PC�) .......................................................................................40 3.5 Remote Timers for Combis ............................................................................................................................4� 3.6 Optional Programmer (PU�) for Non-Combi Models ......................................................................................42
4.0 OilSupply 4.� One Pipe Gravity System ...............................................................................................................................46 4.2 Two Pipe System ...........................................................................................................................................47 4.3 De-aerator System ........................................................................................................................................47 4.4 One Pipe Lift System .....................................................................................................................................48
5.0 Flues 5.� Installation of Balanced Flues.........................................................................................................................49 5.2 Conventional Flues ........................................................................................................................................5� 5.3 Low Level Balanced Flue Terminal Positions ..................................................................................................5�
6.0 AirSupplyforCombustion&Ventilation 6.� Open Flue Boilers ..........................................................................................................................................53 6.2 Balanced Flue Boilers – Boilers in a Compartment .........................................................................................53
7.0 InstallationRequirements 7.� General Requirements ...................................................................................................................................54 7.2 Sealed Systems ............................................................................................................................................55 7.3 Combi Domestic Hot Water ...........................................................................................................................56
8.0 Burners 8.� RDB Burner ...................................................................................................................................................57 8.2 Oil Pump .......................................................................................................................................................57 8.3 Electrode Setting ...........................................................................................................................................58 8.4 Burner Start-Up Cycle ...................................................................................................................................58 8.5 Air Damper Adjustment .................................................................................................................................58
9.0 Commissioning&Servicing 9.� Commissioning..............................................................................................................................................59 9.2 Servicing .......................................................................................................................................................59
10.0 BurnerFaultFinding �0.� Riello RDB .....................................................................................................................................................60
11.0 CombiFaultFinding ��.� Central Heating .............................................................................................................................................6� ��.2 Domestic Hot Water ......................................................................................................................................62
12.0 OptionalBoilerMountedDigitalTimer �2.� Operating Instructions ...................................................................................................................................63
13.0 Spares �3.� RDB 2.2 Spares ............................................................................................................................................67 �3.2 RDB 3.2 Spares ............................................................................................................................................68 �3.3 Pipe Spares ...................................................................................................................................................69 �3.4 Short Parts List – Boiler .................................................................................................................................7�
14.0 YourGuarantee,Terms&Conditions .....................................................................................................................72
Commissioning/ServiceRecord .............................................................................................................................73
Page 2
USERINSTRUCTIONS
DualThermostat
The radiator temperature is regulated via the boiler control thermostat. The thermostat is user adjustable from 55°C at its minimum setting (dial ‘0’) to 85°C at its maximum setting (dial ‘5’). In order to provide an additional level of safety there is a high limit thermostat which has a cut off point of ��0°C; this is factory set and is not adjustable. If thermostat trips it needs to be reset manually.
HighLimitThermostatReset
If the high level thermostat trip has operated, remove the reset cover by using a coin or screwdriver (turning anti clockwise) and press the small red button now exposed. Do not press the reset button while the boiler is still hot as this will cause damage to the thermostat.
BurnerLockout
When the pressure jet oil fired burner stops after failing to fire the red reset button will be illuminated. This indicates that there is a fault or there is no fuel getting to the burner. The house holder should only reset the burner twice in succession. If the burner continues to lockout contact Warmflow or your service engineer.
SystemPressure–System&CombiBoilers
When the boiler is connected to a sealed system the system pressure should be periodically checked. The minimum pressure, as indicated by the black needle, is 0.5 bar when the boiler is cold and 2.5 bar when the boiler is at normal operating temperature. If the pressure is outside this range contact Warmflow or your installer.
BurnerLockOutReset
SystemPressure
Page 2 Page 67
USER INSTRUCTIONS
Dual Thermostat
The radiator temperature is regulated via the boiler control thermostat. The thermostat is user adjustable from 55°C at its minimum setting (dial ‘0’) to 85°C at its maximum setting (dial ‘5’). In order to provide an additional level of safety there is a high limit thermostat which has a cut off point of 110°C; this is factory set and is not adjustable. If thermostat trips it needs to be reset manually.
High Limit Thermostat Reset
If the high level thermostat trip has operated, remove the reset cover by using a coin or screwdriver (turning anti clockwise) and press the small red button now exposed. Do not press the reset button while the boiler is still hot as this will cause damage to the thermostat.
Burner Lockout
When the pressure jet oil fired burner stops after failing to fire the red reset button will be illuminated. This indicates that there is a fault or there is no fuel getting to the burner. The house holder should only reset the burner twice in succession. If the burner continues to lockout contact Warmflow or your service engineer.
System Pressure – System & Combi Boilers
When the boiler is connected to a sealed system the system pressure should be periodically checked. The minimum pressure, as indicated by the black needle, is 0.5 bar when the boiler is cold and 2.5 bar when the boiler is at normal operating temperature. If the pressure is outside this range contact Warmflow or your installer.
Control Thermostat
HighLimitReset
Reset
Burner Lock Out Reset
System Pressure
Notes
Page 2 Page 67
USER INSTRUCTIONS
Dual Thermostat
The radiator temperature is regulated via the boiler control thermostat. The thermostat is user adjustable from 55°C at its minimum setting (dial ‘0’) to 85°C at its maximum setting (dial ‘5’). In order to provide an additional level of safety there is a high limit thermostat which has a cut off point of 110°C; this is factory set and is not adjustable. If thermostat trips it needs to be reset manually.
High Limit Thermostat Reset
If the high level thermostat trip has operated, remove the reset cover by using a coin or screwdriver (turning anti clockwise) and press the small red button now exposed. Do not press the reset button while the boiler is still hot as this will cause damage to the thermostat.
Burner Lockout
When the pressure jet oil fired burner stops after failing to fire the red reset button will be illuminated. This indicates that there is a fault or there is no fuel getting to the burner. The house holder should only reset the burner twice in succession. If the burner continues to lockout contact Warmflow or your service engineer.
System Pressure – System & Combi Boilers
When the boiler is connected to a sealed system the system pressure should be periodically checked. The minimum pressure, as indicated by the black needle, is 0.5 bar when the boiler is cold and 2.5 bar when the boiler is at normal operating temperature. If the pressure is outside this range contact Warmflow or your installer.
Control Thermostat
HighLimitReset
Reset
Burner Lock Out Reset
System Pressure
Notes
Page 3
FillingLoop
If the system pressure falls below the minimum (eg, removal of radiator for decorating purposes) then the system should be topped up using the filling loop valve. After the system has been topped up the pressure gauge should read � bar when the system is cold. The valve must be fully closed and the filling loop flexible removed from the valve, expect a small water loss from the pipe.
CombiControlPanel
The heating control thermostat is user adjustable from 55°C to 85°C. In order to provide an additional level of safety there is a high limit thermostat which has a cut off point of ��0°C; this is factory set and is not adjustable. The high limit thermostat is located under the control panel to the left hand side, press button to reset. As standard the panel is fitted with two on/off selector switches to control hot water and central
heating. These switches can be replaced by the optional two channel digital programmer, instructions for use are provided in the main boiler handbook.
Thisboilermustbeservicedannually.ContactWarmflowforfurtherdetails.
In the event of a breakdown please contact your commissioning engineer who should then contact our service department whilst at your home, to report the fault.
HighLimitResetButtonUnderneath
FillingLoopValve
FlexibleFillingLoopHose
ControlThermostatKnob
Page 4
CONDENSINGBOILERINSTALLATIONREQUIREMENTS
The Warmflow condensing boiler can be fitted to most installations using standard practices and techniques.
There are however a number of considerations that must be taken into account.
�. All existing systems must be properly flushed to remove any sediment/sludge in order to prevent any blockage or reduction in efficiency of the boiler.
2. The system must be fully pumped.
3. The primary difference between an ordinary boiler and a condensing boiler is the condensate drain. The drain can be plumbed from the condensate trap in any ordinary plastic pipe, eg, plastic overflow pipe, directly into the household drain or soak away.
Any blockage in the drain could lead to an alteration in the combustion settings because of partially blocked flueways.
Where the boiler is fitted into a basement a condensate pump may be required.
4. As an indicator of the increased efficiency of a condensing boiler there may be a visible plume of ‘steam’ from the flue. Care needs to be exercised when positioning the appliance and selecting the type of flue to ensure that the plume does not cause a nuisance to the householder or to surrounding properties.
As the water temperature in the system rises the pluming effect will diminish. Even where pluming is not visible the boiler is still operating more efficiently than a standard boiler.
Page 5
BEFOREFITTINGACOMBIBOILERTHEINSTALLERMUSTCHECK:
�. What the maximum hot water demand placed on the boiler is likely to be. Not every installation is suitable for a Combi boiler. Systems requiring very high hot water flow rates may be better suited with an unvented cylinder.
2. That the mains are capable of supplying up to 24 litre/min with a minimum dynamic pressure of �.8 bar at the boiler. This is to ensure that the boiler can achieve its maximum output. To protect the appliance and to prevent excessive flow rates, a pressure reducing valve must be fitted to limit the maximum supply pressure to 3 bar.
3. Where the mains water pressure is supplied via a borehole pump and accumulator the pressure variation must not affect the thermostatic mixer valve. Contact Warmflow for further details.
4. The hardness of the mains water supply. Systems with hard water must be fitted with a suitable chemical scale preventer (eg Fernox Quantomat or Combimate).
5. That the flow from any one hot water outlet does not exceed the maximum recommended. This applies particularly to baths which are usually fitted with larger taps and larger bore supply pipes. It may be necessary to restrict the flow to these taps by reducing the bore of the supply pipework (eg �5mm) or by fitting a restrictor into the pipework.
6. That any outlet when opened does not starve all the other outlets of hot water. If more than one outlet is open at the same time then the total flow from all the outlets should not exceed the maximum flow rate of the boiler.
7. That any showers being supplied with hot water by the boiler are compatible with this type of appliance.
It should be noted that the boiler has been factory fitted with an �8 litre/min flow restrictor.
The manufacturer’s guarantees are void if the appliance is not installed and commissioned in accordance with the recommendations made herein.
Page 6
1.0 GeneralInformation
1.1 Introduction
Note: All our domestic appliances have been independently tested andaccreditedasexceedingtheminimumSEDBUKefficiencylevelsrequiredfortheirtype,incompliancewiththeBuildingRegulationsApprovedDocumentL1A, L1B for England and Wales, the Building Standards (Scotland)Regulations Section 6, Part F Northern Ireland and Part L Republic ofIreland.
Warmflow oil fired condensing boilers are designed to burn Class C2 (28 sec redwood) kerosene only and to be used on a fully pumped system, and are suitable for connection to sealed heating systems.
As standard the Combi and System boilers are fitted with a system expansion vessel, circulating pumps, filling loop, pressure gauge and safety valve. An optional 7-day electronic programmer kit is also available for all Utility boiler models.
The Combi can provide at mains pressure domestic hot water without the need for a storage cylinder.
Themanufacturer’sguaranteesarevoidiftheapplianceisnotinstalledandcommissionedinaccordancewiththerecommendationsmadeherein.
1.2 GeneralRequirements
The installation of the boiler must be in accordance with the following regulations.
BS54�0 : PART � Code of practice for oil firing. BS5449 : PART � Forced circulation hot water systems. BS7593 : Treatment of water in domestic hot water central heating systems.
Current Building Regulations: Part J England and Wales Section 3 Scotland Part L Northern Ireland Part J Republic of Ireland
Current IEE Regulations
BS7074 : PART � Application Selection & Installation of Expansion Vessels
The heating system should be installed by a competent installer in accordance with the recommendations laid down by HVCA, OFTEC and sound engineering practice.
In order to comply with building regulations OFTEC forms CD10 forinstallationsandCD11forcommissioningshouldbeleftwiththecustomer.Alternatively the installationcanbe inspectedandapprovedbyabuildingcontrol officer. CD10 and CD11 forms are available from OFTEC onTel:08456585080,Fax:08456585181.
Page 7
1.3 CombiGeneralRequirements
The boiler will have a DHW priority when both domestic hot water (DHW) and central heating (CH) are selected. So if the flow switch is closed or the heat store has not been satisfied the entire output of the boiler is directed to DHW before the boiler will switch over to CH. When fully cold it can take up to 20 minutes for the heat store of a 90,000 Btu/h combi to be satisfied, and slightly longer for a 70,000 Btu/h combi.
After a draw-off of �20L at 24L/min, with an average temperature rise of 32ºC, the thermal store of a 90,000 Btu/h combi has a recovery time of approximately 7 minutes. A 70,000 Btu/h combi will take slightly longer to recover.
Note: If HW has not been selected no hot water can be produced even if the heat store is up to temperature.
1.3.1 PumpOverrun
Where there is a build up of excess heat in the boiler primary heat exchanger and the central heating has not been selected then the pump overrun thermostat will operate. The excess heat will then be pumped into the heat store. Once the temperature has fallen in the boiler and the pump overrun stat is satisfied, then the hot water pump will stop.
Page 8
1.4
Baf
fle
Po
siti
oni
ng
Th
e pr
imar
y he
at e
xcha
nger
baf
fles
cons
ist
of o
ne
heav
y ba
ffle
stac
k (4
mm
thi
ck)
at t
he b
otto
m,
3 lig
hter
baf
fle s
tack
s (3
mm
thi
ck) i
n th
e m
iddl
e an
d �
baffl
e pl
ate
(3m
m t
hick
) at
the
top
. U
pon
inst
alla
tion
or a
fter s
ervi
cing
, ens
ure
the
baffl
es a
re in
the
corr
ect
orde
r an
d co
rrec
tly s
tack
ed.
To a
chie
ve m
axim
um
effic
ienc
y pu
sh t
he p
rimar
y he
at e
xcha
nger
baf
fles
in
the
dire
ctio
n of
the
arro
ws
as s
how
n. T
he s
econ
dary
he
at e
xcha
nger
spr
ing
baffl
es m
ust
be f
ully
inse
rted
in
to th
e he
at e
xcha
nger
tube
s (n
arro
w e
nd fi
rst).
Th
e pr
imar
y he
at e
xcha
nger
baf
fles
cons
ist
of t
wo
half-
wid
th b
affle
sta
cks
at t
he b
otto
m,
3 fu
ll-w
idth
ba
ffle
stac
ks in
the
mid
dle
and
� ba
ffle
plat
e at
the
to
p. U
pon
inst
alla
tion
or a
fter
serv
icin
g, e
nsur
e th
e ba
ffles
are
in th
e co
rrec
t ord
er a
nd c
orre
ctly
sta
cked
. To
ach
ieve
max
imum
effi
cien
cy,
push
the
prim
ary
heat
exc
hang
er b
affle
s in
the
dire
ctio
n of
the
arr
ows
as s
how
n. T
he s
econ
dary
hea
t ex
chan
ger
sprin
g ba
ffles
mus
t be
fully
inse
rted
into
the
heat
exc
hang
er
tube
s (n
arro
w e
nd fi
rst).
M
odel
sup
to1
20H
E
150
HE
Mod
els
Page 9
1.5
Co
mp
one
nts
1.5.
1U
-Ser
ies
Uti
lity
–C
asin
gC
om
po
nent
s
1.
Bo
iler
Ass
emb
ly2.
To
pC
asin
g(r
emo
vab
le)
3.
Rea
rC
asin
g4.
S
ide
Cas
ing
5.
Fro
ntC
asin
g(r
emo
vab
le)
12
3
45
M
odel
sup
to1
20H
E
150
HE
Mod
els
1.
Bo
iler
Ass
emb
ly2.
To
pF
ront
Cas
ing
(rem
ova
ble
)3.
To
pR
ear
Cas
ing
(rem
ova
ble
)4.
R
ear
Flue
Cas
ing
5.
Rea
rC
asin
g(r
emo
vab
le)
6.
Sid
eC
asin
g7.
Fr
ont
Cas
ing
(rem
ova
ble
)
1
2
3
5
7
4
6
Page �0
1.5.
2U
-Ser
ies
Uti
lity
–P
re-W
ired
(UH
E)–
Key
Co
mp
one
nts
1.
Hea
tE
xcha
nger
2.
Co
nden
sing
Uni
t3.
A
uto
Air
Ven
t4.
S
ervi
ceD
oo
r5.
‘D
ual-
Saf
e’T
herm
ost
at6.
H
eat
Exc
hang
erB
affl
es7.
S
ervi
ceD
oo
r8.
S
ervi
ceD
oo
rC
ove
r9.
C
ond
ensa
teT
rap
10.R
iello
RD
B2
.2B
urne
r11
.Hea
ting
Flo
wC
onn
ecti
on
12.H
eati
ngR
etur
nC
onn
ecti
on
12
12
4
56
7
8
9
11
3
10
M
odel
sup
to1
20H
E
150
HE
Mod
els
1
2
3
4
56
7
8
9
11
12
10
1.
Hea
tE
xcha
nger
2.
Co
nden
sing
Uni
t3.
A
uto
Air
Ven
t4.
S
ervi
ceD
oo
r5.
‘D
ual-
Saf
e’T
herm
ost
at6.
H
eat
Exc
hang
erB
affl
es7.
S
ervi
ceD
oo
r8.
S
ervi
ceD
oo
rC
ove
r9.
C
ond
ensa
teT
rap
10.R
iello
RD
B3
.2B
urne
r11
.Hea
ting
Flo
wC
onn
ecti
on
12.H
eati
ngR
etur
nC
onn
ecti
on
Page ��
1.5.
3U
-Ser
ies
Uti
lity
–P
ump
ed(U
PH
E)–
Key
Co
mp
one
nts
1.
Hea
tE
xcha
nger
2.
Co
nden
sing
Uni
t3.
P
ipew
ork
Ass
emb
ly4.
P
ress
ure
Rel
ief
Valv
e5.
A
uto
Air
Ven
t6.
C
ircu
lati
ngP
ump
7.
Aut
oA
irV
ent
8.
Ser
vice
Do
or
9.
‘Dua
l-S
afe’
The
rmo
stat
10.H
eat
Exc
hang
erB
affl
es11
.Ser
vice
Do
or
12.S
ervi
ceD
oo
rC
ove
r13
.Co
nden
sate
Tra
p14
.Rie
lloR
DB
2.2
Bur
ner
15.H
eati
ngF
low
Co
nnec
tio
n16
.Hea
ting
Ret
urn
Co
nnec
tio
n
111
12
10
28
9
16
4
65
15
13
14
7
3
M
odel
sup
to1
20H
E
150
HE
Mod
els
111
12
10
28
9
7
4
6
515
13
14
16
3
1.
Hea
tE
xcha
nger
2.
Co
nden
sing
Uni
t3.
P
ipew
ork
Ass
emb
ly4.
P
ress
ure
Rel
ief
Valv
e5.
A
uto
Air
Ven
t6.
C
ircu
lati
ngP
ump
7.
Aut
oA
irV
ent
8.
Ser
vice
Do
or
9.
‘Dua
l-S
afe’
The
rmo
stat
10.H
eat
Exc
hang
erB
affl
es11
.Ser
vice
Do
or
12.S
ervi
ceD
oo
rC
ove
r13
.Co
nden
sate
Tra
p14
.Rie
lloR
DB
3.2
Bur
ner
15.H
eati
ngF
low
Co
nnec
tio
n16
.Hea
ting
Ret
urn
Co
nnec
tio
n
Page �2
1.5.4 U-SeriesUtility–System(USHE)–KeyComponents
1. Pumped(UPHE)BoilerAssembly2. SystemKit(SK1)3. PressureGauge4. ExpansionVessel5. FillingLoop6. HeatingFlowConnection7. HeatingReturnConnection
16
7
3
4
2
5
1.5.5 U-SeriesUtility–Combi(UCHE)–KeyComponents
1. HeatExchanger2. HeatStore3. CondensingUnit4. ServiceDoor5. PipeworkAssembly6. PlateHeatExchanger7. TwinHeadPump8. CondensateTrap9. ServiceDoor10.ServiceDoorCover11.ControlPanel12.ExpansionVessel13.RielloRDB2.2Burner14.HeatExchangerBaffles
1
2
34
5
6
7
8
9
10
11
1213
14
Page �3
1.5.
6K
-Ser
ies
Kab
inP
ak–
Cas
ing
Co
mp
one
nts
1.
Bo
iler
Ass
emb
ly2.
To
pC
asin
g(r
emo
vab
le)
3.
Flue
Ass
emb
ly(r
emo
vab
le)
4.
Rea
rFl
ueC
asin
g5.
B
lank
ing
Plu
g(r
emo
vab
le)
6.
Rea
rC
asin
g(r
emo
vab
le)
7.
Sid
eC
asin
g8.
Fr
ont
Cas
ing
(rem
ova
ble
)
1
2
3
45
6
78
M
odel
sup
to1
20H
E
150
HE
Mod
els1
2
3
45
6
78
1.
Bo
iler
Ass
emb
ly2.
To
pC
asin
g(r
emo
vab
le)
3.
Flue
Ass
emb
ly(r
emo
vab
le)
4.
Rea
rFl
ueC
asin
g5.
B
lank
ing
Plu
g(r
emo
vab
le)
6.
Rea
rC
asin
g(r
emo
vab
le)
7.
Sid
eC
asin
g8.
Fr
ont
Cas
ing
(rem
ova
ble
)
Page �4
1.5.
7K
-Ser
ies
Kab
inP
ak–
Pre
-Wir
ed(K
HE
)–K
eyC
om
po
nent
s
1.
Hea
tE
xcha
nger
2.
Co
nden
sing
Uni
t3.
A
uto
Air
Ven
t4.
S
ervi
ceD
oo
r5.
‘D
ual-
Saf
e’T
herm
ost
at6.
H
eat
Exc
hang
erB
affl
es7.
S
ervi
ceD
oo
r8.
S
ervi
ceD
oo
rC
ove
r9.
C
ond
ensa
teT
rap
10.R
iello
RD
B2
.2B
urne
r11
.Hea
ting
Flo
wC
onn
ecti
on
12.H
eati
ngR
etur
nC
onn
ecti
on
1
2
3 5
4
6
78
9
10
11
12
M
odel
sup
to1
20H
E
150
HE
Mod
els
1
2
3
4
56
7
8
9
11
12
10
1.
Hea
tE
xcha
nger
2.
Co
nden
sing
Uni
t3.
A
uto
Air
Ven
t4.
S
ervi
ceD
oo
r5.
‘D
ual-
Saf
e’T
herm
ost
at6.
H
eat
Exc
hang
erB
affl
es7.
S
ervi
ceD
oo
r8.
S
ervi
ceD
oo
rC
ove
r9.
C
ond
ensa
teT
rap
10.R
iello
RD
B3
.2B
urne
r11
.Hea
ting
Flo
wC
onn
ecti
on
12.H
eati
ngR
etur
nC
onn
ecti
on
Page �5
1.5.
8K
-Ser
ies
Kab
inP
ak–
Pum
ped
(KP
HE
)–K
eyC
om
po
nent
s
1.
Hea
tE
xcha
nger
2.
Co
nden
sing
Uni
t3.
P
ipew
ork
Ass
emb
ly4.
P
ress
ure
Rel
ief
Valv
e5.
A
uto
Air
Ven
t6.
C
ircu
lati
ngP
ump
7.
Aut
oA
irV
ent
8.
Ser
vice
Do
or
9.
‘Dua
l-S
afe’
The
rmo
stat
10.H
eat
Exc
hang
erB
affl
es11
.Ser
vice
Do
or
12.S
ervi
ceD
oo
rC
ove
r13
.Co
nden
sate
Tra
p14
.Rie
lloR
DB
2.2
Bur
ner
15.H
eati
ngF
low
Co
nnec
tio
n16
.Hea
ting
Ret
urn
Co
nnec
tio
n
1
82
45 6 7 9
10
1112
13
14
15
16
3
M
odel
sup
to1
20H
E
150
HE
Mod
els
111
12
10
28
9
7
4
6
515
13
14
16
3
1.
Hea
tE
xcha
nger
2.
Co
nden
sing
Uni
t3.
P
ipew
ork
Ass
emb
ly4.
P
ress
ure
Rel
ief
Valv
e5.
A
uto
Air
Ven
t6.
C
ircu
lati
ngP
ump
7.
Aut
oA
irV
ent
8.
Ser
vice
Do
or
9.
‘Dua
l-S
afe’
The
rmo
stat
10.H
eat
Exc
hang
erB
affl
es11
.Ser
vice
Do
or
12.S
ervi
ceD
oo
rC
ove
r13
.Co
nden
sate
Tra
p14
.Rie
lloR
DB
3.2
Bur
ner
15.H
eati
ngF
low
Co
nnec
tio
n16
.Hea
ting
Ret
urn
Co
nnec
tio
n
Page �6
1.5.9 K-SeriesKabinPak–System(KSHE)–KeyComponents
1. Pumped(KPHE)BoilerAssembly2. SystemKit(SK1)3. PressureGauge4. ExpansionVessel5. FillingLoop6. HeatingFlowConnection7. HeatingReturnConnection
1.5.10 K-SeriesKabinPak–Combi(KCHE)–KeyComponents
1. HeatExchanger2. HeatStore3. CondensingUnit4. ServiceDoor5. PipeworkAssembly6. PlateHeatExchanger7. TwinHeadPump8. CondensateTrap9. ServiceDoor10.ServiceDoorCover11.ControlPanel12.ExpansionVessel13.RielloRDB2.2Burner14.HeatExchangerBaffles
6
7
4
23
5
1
1
2
34
5
6
7
8
9
10
11
1213
14
Page �7
1.5.11 CombiControlPanelLayout
ControlThermostat
MainsOnLamp(Green)
HighLimitTrippedLamp(Yellow)
BurnerLockoutLamp(Red)
HWOn/OffSwitch
CHOn/OffSwitch
HighLimitThermostatReset(Underneath)
1.5.12 CombiPipeLayout(UCHE&KCHEModels)
Page �8
2.0 TechnicalDetails
2.1 CombiSequenceofOperationFlowChart
PowerOn
Timer CallingFor Heat
HWSelected
Flow SwitchClosed
DHW TankStat Satisfied
CHSelected
CH PumpOnly Runs
Room StatSatisfied
Boiler StatSatisfied
Boiler LimitStat Tripped
BurnerFires
DHW PumpOnly Runs
HW LimitStat Satisfied
Boiler LimitStat Tripped
BurnerFires
BurnerStops
PressReset Button
PressReset Button
Pump OverrunStat Satisfied
DHW PumpOnly Runs
YES
YES
YES
NO
YES
NO
YES
YES
YES
NO
NO
NO
NO
NO
NO
YES
YES
YES
YES
YES
YES NO
NO
NO
Page �9
2.2 Dimensions
2.2.1 U-SeriesUtility(UHE,UPHE&USHEModelsupto120HE)
U120HE DIMS
A B C D E F G H J K L M N P R S T U V W X Y Z600 413 865 766 134 666 86 75 50 687 21 104 226 47 41 390 104 54 51 71 91 718 812
2.2.2 U-SeriesUtility(150HEModels)
U150HE DIMS
A B C D E F G H J K L M N P R S T U V W872 595 1155 1007 134 905 75 71 121 57 85 155 850 950 100 318 120 623 950 1050
MODEL A B C D E F G H J K L M N P R S T U V W X Y Z
U~ 600 413 865 766 134 666 86 75 50 687 21 104 226 47 41 390 104 54 51 71 91 718 812
UP~ 600 413 865 766 134 666 86 75 50 687 21 104 226 47 41 390 104 54 51 71 91 718 812
US~ 600 413 865 766 134 666 86 75 50 687 21 104 226 47 41 390 104 54 51 71 91 718 812
MODEL A B C D E F G H J K L M N P R S T U V W
U150HE 872 595 1155 1007 134 905 75 71 121 57 85 155 850 950 100 318 120 623 950 1050
UP150HE 872 595 1155 1007 134 905 75 71 121 57 85 155 850 950 100 318 120 623 950 1050
Page 20
2.2.3 U-SeriesUtility(UCHEModels)
UCHE DIMS
A B C D E F G H J K L M N P R S T U V W X Y600 595 865 766 134 388 207 666 47 226 42 94 718 91 71 51 54 104 390 71 104 197
MODEL A B C D E F G H J K L M N P R S T U V W X Y
UC~ 600 595 865 766 134 388 207 666 47 226 42 94 718 91 71 51 54 104 390 71 104 197
Page 2�
2.2.4 K-SeriesKabinPak(KHE,KPHE&KSHEModelsupto120HE)
K120HE DIMS
A B C D E F G H J K L M N P R S T U V700 413 900 40 67 40 210 705 50 50 161 93 773 67 90 117 52 415 65
2.2.5 K-SeriesKabinPakBaseTray(KHE,KPHE&KSHEModelsupto120HE)
FRONT
K120HE BASETRAY DIMS
MODEL A B C D E F G H J K L M N P R S T U V
K~ 700 413 900 40 67 40 210 705 50 50 161 93 773 67 90 117 52 415 65
KP~ 700 413 900 40 67 40 210 705 50 50 161 93 773 67 90 117 52 415 65
KS~ 700 413 900 40 67 40 210 705 50 50 161 93 773 67 90 117 52 415 65
Page 22
2.2.6 K-SeriesKabinPak(150HEModels)
K150HE DIMS
A B C D E F G H J K L M N P R S T U V595 997 876 1155 93 161 75 70 120 55 85 155 850 100 100 320 122 630 120
2.2.7 K-SeriesKabinPakBaseTray(150HEModels)
FRONT
K150HE BASETRAY DIMS
MODEL A B C D E F G H J K L M N P R S T U V
K150HE 595 997 876 1155 93 161 75 70 120 55 85 155 850 100 100 320 122 630 120
KP150HE 595 997 876 1155 93 161 75 70 120 55 85 155 850 100 100 320 122 630 120
Page 23
2.2.8 K-SeriesKabinPak(KCHEModels)
2.2.9 K-SeriesKabinPakBaseTray(KCHEModels)
KCHE DIMS
A B C D E F G H J K L M N P R S T U V W X700 600 900 770 210 396 209 92 161 52 50 50 705 117 67 40 90 40 67 415 65
FRONT
KCHE BASETRAY DIMS
MODEL A B C D E F G H J K L M N P R S T U V W X
KC~ 700 600 900 770 210 396 209 92 161 52 50 50 705 117 67 40 90 40 67 415 65
Page 24
2.3 FlueOptions,Components&Dimensions
The use of any flue system other than that supplied or recommended by the manufacturer will invalidate the warranty.
2.3.1 HELowLevelBalancedFlueKit(FBF)
Comprising the following four main components.
1. DiverterAssembly2. Extension3. Elbow4. TerminalEnd5. MountingBrackets
1
2
5
2
3
5
5
42.3.2 PlumeManagementKit
Plume Management Kits are available for our range of appliances. Please refer to the Installation Instructions supplied with the kits.
Page 25
2.3.3 WarmflowHEBoilerFlueComponents:80/125Ø
Note:1. Fluefittingkitrequired.2. Ifterminalislessthan2metresabovegroundlevelterminalguardmustbefitted.3. Extensionpipesandflueadaptorlengthsquotedareeffectivelengthsandnottheactuallength
ofthepiece.4. Alldimensionsinmmunlessotherwisestated.
Page 26
2.3.4 Vertical&HighLevelTerminalOptions
Note:1. Allfluescanutiliseanycombinationofbends,straights,adaptorsandterminals.2. Ensureflueisarrangedsuchthatitfallscontinuouslytowardstheboiler.3. TheLowLevel,HighLevelandVerticalBalancedFlueSystemscanuseanycombinationof
flueextensionpiecesuptothemaximumequivalentlengthdependinguponboileroutputasillustratedintheabovetable.
BOILEROUTPUT
(kW)
TOTALEQUIVALENTFLUELENGTH(m)
Vertical Balanced Flue High/Low Level Balanced Flue
8.0 5.0�5
8.0 5.02�
8.0 5.026
6.0 3.530
4.0 2.533
4.0 2.544
Page 27
2.4 CondensateDisposal
The Warmflow high efficiency condensing boiler is supplied with a factory fitted, self sealing condensate trap. The trap has been fitted inside the boiler casing to the right hand side.
The condensate drainage pipe within the boiler is a flexible plastic hose which can be trimmed to length. 3/4” or 22mm pipe should be connected to the flexible hose. The pipe should not be made from steel or copper. The drainage pipe may run into an internal soil stack or waste pipe, an external gulley, hopper or soakaway as shown below.
The boiler when fully condensing will produce a maximum of �.5 litres per hour of condensate. It is recommended that the drainage pipe should have a minimum fall of �:20.
Page 28
2.5 TechnicalData
2.5.1 U-SeriesUtility–Pre-Wired(UHE)
U90HEU70HEMODEL
Nominal kW
Heat Output Btu/hr
Nominal kW
Heat Input Btu/hr
Burner
Head
Secondary Air Damper
Flue mm
Diameter in
Flue Gas Temp °C
Smoke Bacarach
�4.7
50,000
17.6
60,000
2�
7�,650
2�
7�,650
23.5
80,000
27.�
92,380
�5.3
52,�50
18.4
62,600
22
75,000
22
75,000
24.4
83,175
28
95,550
RDB 2.2 �5-2� RDB 2.2 2�-26
T�SH T2SH
B N/A
�00 or �25
4 or 5
�00 or �25
4 or 5
86 88 90 90 93 95
0 0
KeroseneSettings
Nozzle make
size
Oil Pump bar
Pressure psi
Max CO2 %
Approx Fuel litres/h
Flow Rate gals/h
Flow Connection
Return Connection
Water litres
Content gals
Boiler Weight Dry kg
Boiler Weight Wet
SEDBUK Efficiency %
Factory Settings
Danfoss 60°ES
0.5 0.5 0.6
Danfoss 60°ES
0.6 0.65 0.75
7.0
�02
9.0
130
8.0
��6
8.0
��6
8.0
116
7.0
�02
��.5 11.5 ��.5 ��.5 11.5 ��.5
�.65
0.36
1.98
0.44
2.35
0.52
2.35
0.52
2.65
0.58
2.98
0.65
28mm Compression
�” BSP Female
28mm Compression
�” BSP Female
22
4.8
22
4.8
90
��2
92.2
90
��2
92.8
Highlighted in Bold
U120HE
27.�
92,380
32.7
���,600
28
95,550
29
99,050
34
��6,000
RDB 2.2 26-33
T5S
N/A
�00 or �25
4 or 5
95 98 ��0
0
Danfoss 60°ES
0.75 0.85 0.85
7.0
�02
8.0
116
�0.0
�45
��.5 11.5 ��.5
2.98
0.65
3.40
0.75
3.8�
0.84
28mm Compression
�” BSP Female
22
4.8
90
��2
92.4
30
102,400
U150HE
33
��2,629
44
�50,�28
33
��2,629
38.5
131,362
46.8
�59,68�
RDB 3.2 33-44
Adjustable @ setting 5
N/A
�00 or �25
4 or 5
75 90 �05
0
Danfoss 80°H
0.85 1.00 �.25
�0.0
�45
9.5
138
9.5
�38
��.5 11.5 ��.5
3.8�
0.84
4.48
0.99
5.25
�.�6
�¼” BSP Female
�¼” BSP Female
45
9.9
�75
220
9�.9
40
136,139
Page 29
2.5.2 U-SeriesUtility–Pumped(UPHE)
UP90HEUP70HEMODEL
Nominal kW
Heat Output Btu/hr
Nominal kW
Heat Input Btu/hr
Burner
Head
Secondary Air Damper
Flue mm
Diameter in
Flue Gas Temp °C
Smoke Bacarach
�4.7
50,000
17.6
60,000
2�
7�,650
2�
7�,650
23.5
80,000
27.�
92,380
�5.3
52,�50
18.4
62,600
22
75,000
22
75,000
24.4
83,175
28
95,550
RDB 2.2 �5-2� RDB 2.2 2�-26
T�SH T2SH
B N/A
�00 or �25
4 or 5
�00 or �25
4 or 5
86 88 90 90 93 95
0 0
KeroseneSettings
Nozzle make
size
Oil Pump bar
Pressure psi
Max CO2 %
Approx Fuel litres/h
Flow Rate gals/h
Flow Connection
Return Connection
Water litres
Content gals
Boiler Weight Dry kg
Boiler Weight Wet kg
SEDBUK Efficiency %
Factory Settings
Danfoss 60°ES
0.5 0.5 0.6
Danfoss 60°ES
0.6 0.65 0.75
7.0
�02
9.0
130
8.0
��6
8.0
��6
8.0
116
7.0
�02
��.5 11.5 ��.5 ��.5 11.5 ��.5
�.65
0.36
1.98
0.44
2.35
0.52
2.35
0.52
2.65
0.58
2.98
0.65
22mm Copper
�” BSP Female
22mm Copper
�” BSP Female
22
4.8
22
4.8
95
��7
92.2
95
��7
92.8
Highlighted in Bold
UP150HE
33
��2,629
44
�50,�28
33
��2,629
38.5
131,362
46.8
�59,68�
RDB 3.2 33-44
Adjustable @ setting 5
N/A
�00 or �25
4 or 5
75 90 �05
0
Danfoss 80°H
0.85 1.00 �.25
�0.0
�45
9.5
138
9.5
�38
��.5 11.5 ��.5
3.8�
0.84
4.48
0.99
5.25
�.�6
28mm copper
�¼” BSP Female
45
9.9
�85
230
9�.9
40
136,139
UP120HE
27.�
92,380
30
102,400
32.7
���,600
28
95,550
34
��6,000
RDB 2.2 26-33
T5S
N/A
�00 or �25
4 or 5
95 98 ��0
0
29
99,050
Danfoss 60°ES
0.75 0.85 0.85
7.0
�02
8.0
116
�0.0
�45
��.5 11.5 ��.5
2.98
0.65
3.40
0.75
3.8�
0.84
28mm Compression
�” BSP Female
22
4.8
95
��7
92.4
Page 30
2.5.3 U-SeriesUtility–System(USHE)
US90HEUS70HEMODEL
Nominal kW
Heat Output Btu/hr
Nominal kW
Heat Input Btu/hr
Burner
Head
Secondary Air Damper
Flue mm
Diameter in
Flue Gas Temp °C
Smoke Bacarach
�4.7
50,000
17.6
60,000
2�
7�,650
2�
7�,650
23.5
80,000
27.�
92,380
�5.3
52,�50
18.4
62,600
22
75,000
22
75,000
24.4
83,175
28
95,550
RDB 2.2 �5-2� RDB 2.2 2�-26
T�SH T2SH
B N/A
�00 or �25
4 or 5
�00 or �25
4 or 5
86 88 90 90 93 95
0 0
KeroseneSettings
Nozzle make
size
Oil Pump bar
Pressure psi
Max CO2 %
Approx Fuel litres/h
Flow Rate gals/h
Flow Connection
Return Connection
Water litres
Content gals
Boiler Weight Dry kg
Boiler Weight Wet kg
SEDBUK Efficiency %
Factory Settings
Danfoss 60°ES
0.5 0.5 0.6
Danfoss 60°ES
0.6 0.65 0.75
7.0
�02
9.0
130
8.0
��6
8.0
��6
8.0
116
7.0
�02
��.5 11.5 ��.5 ��.5 11.5 ��.5
�.65
0.36
1.98
0.44
2.35
0.52
2.35
0.52
2.65
0.58
2.98
0.65
22mm Copper
�” BSP Female
22mm Copper
�” BSP Female
22
4.8
22
4.8
�05
�27
92.2
�05
�27
92.8
Highlighted in Bold
US120HE
27.�
92,380
29
99,050
32.7
���,600
28
95,550
30
102,400
34
��6,000
RDB 2.2 26-33
T5S
N/A
�00 or �25
4 or 5
95 98 ��0
0
Danfoss 60°ES
0.75 0.85 0.85
7.0
�02
8.0
116
�0.0
�45
��.5 11.5 ��.5
2.98
0.65
3.40
0.75
3.8�
0.84
28mm Compression
�” BSP Female
22
4.8
�05
�27
92.4
Page 3�
2.5.4 U-SeriesUtility–Combi(UCHE)
UC90HEUC70HEMODELNominal kWHeat Output Btu/hr
Nominal kWHeat Input Btu/hr
BurnerHeadSecondary Air Damper
Flue mmDiameter in
Flue Gas Temp °CSmoke Bacarach
�4.750,000
17.660,000
2�7�,650
2�7�,650
23.580,000
27.�92,380
�5.352,�50
18.462,600
2275,000
2275,000
24.483,175
2895,550
RDB 2.2 �5-2� RDB 2.2 2�-26T�SH T2SH
B N/A
�00 or �254 or 5
�00 or �254 or 5
86 88 90 90 93 950 0
KeroseneSettings
Nozzle makesize
Oil Pump barPressure psi
Max CO2 %
Approx Fuel litres/hFlow Rate gals/h
Flow ConnectionReturn Connection
Water litresContent gals
Boiler Weight Dry kgBoiler Weight Wet kg
SEDBUK Efficiency %Factory Settings
Danfoss 60°ES0.5 0.5 0.6
Danfoss 60°ES0.6 0.65 0.75
7.0�02
9.0130
8.0��6
8.0��6
8.0116
7.0�02
��.5 11.5 ��.5 ��.5 11.5 ��.5
�.650.36
1.980.44
2.350.52
2.350.52
2.650.58
2.980.65
22mm Copper 22mm Copper
74�6.3
�402�4
90.0 90.0Highlighted in Bold
74�6.3
�402�4
DomesticHotWater(DHW)Production
Minimum Inlet Dynamic Pressure barfor Maximum DHW Flow Rate psi
Maximum AchievableDHW Flow Rate
Maximum Recommended litres/mDHW Flow Rate gals/m
Factory Set litres/mDHW Flow Rate gals/m
Minimum litres/mDHW Flow Rate gals/m
DHW Temperature Rise(at Maximum Output)
Pressure Relief barpsi
Cold Water Mains Inlet Connection
DHW Outlet Connection
�.826
�.826
Unrestricted Unrestricted
�84.0
245.3
�84.0
�84.0
2.50.55
2.50.55
32°C @ �8 litres/minfor �20 litre draw-off
32°C @ 24 litres/minfor �20 litre draw-off
343.5
343.5
Minimum �5mmUnrestricted
Minimum �5mmUnrestricted
22mm Copper 22mm Copper
22mm Copper 22mm Copper
Page 32
2.5.5 K-SeriesKabinPak–Pre-Wired(KHE)
K120HEK90HEK70HEMODEL
Nominal kW
Heat Output Btu/hr
Nominal kW
Heat Input Btu/hr
Burner
Head
Secondary Air Damper
Flue mm
Diameter in
Flue Gas Temp °C
Smoke Bacarach
�4.7
50,000
17.6
60,000
2�
7�,650
2�
7�,650
23.5
80,000
27.�
92,380
27.�
92,380
30
102,400
32.7
���,600
�5.3
52,�50
18.4
62,600
22
75,000
22
75,000
24.4
83,175
28
95,550
28
95,550
34
��6,000
RDB 2.2 �5-2� RDB 2.2 2�-26 RDB 2.2 26-33
T�SH T2SH T5S
B N/A N/A
�00 or �25
4 or 5
�00 or �25
4 or 5
�00 or �25
4 or 5
86 88 90 90 93 95 95 98 ��0
0 0 0
KeroseneSettings
Nozzle make
size
Oil Pump bar
Pressure psi
Max CO2 %
Approx Fuel litres/h
Flow Rate gals/h
Flow Connection
Return Connection
Water litres
Content gals
Boiler Weight Dry kg
Boiler Weight Wet kg
SEDBUK Efficiency %
Factory Settings
Danfoss 60°ES
0.5 0.5 0.6
Danfoss 60°ES
0.6 0.65 0.75
Danfoss 60°ES
0.75 0.85 0.85
7.0
�02
9.0
130
8.0
��6
8.0
��6
8.0
116
7.0
�02
7.0
�02
8.0
116
�0.0
�45
��.5 11.5 ��.5 ��.5 11.5 ��.5 ��.5 11.5 ��.5
�.65
0.36
1.98
0.44
2.35
0.52
2.35
0.52
2.65
0.58
2.98
0.65
2.98
0.65
3.40
0.75
3.8�
0.84
28mm Compression
�” BSP Female
28mm Compression
�” BSP Female
28mm Compression
�” BSP Female
22
4.8
22
4.8
22
4.8
90
��2
92.2
90
��2
92.8
90
��2
92.4
29
99,050
Highlighted in Bold
K150HE
33
��2,629
44
�50,�28
33
��2,629
38.5
131,362
46.8
�59,68�
RDB 3.2 33-44
Adjustable @ setting 5
N/A
�00 or �25
4 or 5
75 90 �05
0
Danfoss 80°H
0.85 1.00 �.25
�0.0
�45
9.5
138
9.5
�38
��.5 11.5 ��.5
3.8�
0.84
4.48
0.99
5.25
�.�6
�¼” BSP Female
�¼” BSP Female
45
9.9
�75
220
9�.9
40
136,139
Page 33
2.5.6 K-SeriesKabinPak–Pumped(KPHE)
KP90HEKP70HEMODEL
Nominal kW
Heat Output Btu/hr
Nominal kW
Heat Input Btu/hr
Burner
Head
Secondary Air Damper
Flue mm
Diameter in
Flue Gas Temp °C
Smoke Bacarach
�4.7
50,000
17.6
60,000
2�
7�,650
2�
7�,650
23.5
80,000
27.�
92,380
�5.3
52,�50
18.4
62,600
22
75,000
22
75,000
24.4
83,175
28
95,550
RDB 2.2 �5-2� RDB 2.2 2�-26
T�SH T2SH
B N/A
�00 or �25
4 or 5
�00 or �25
4 or 5
86 88 90 90 93 95
0 0
KeroseneSettings
Nozzle make
size
Oil Pump bar
Pressure psi
Max CO2 %
Approx Fuel litres/h
Flow Rate gals/h
Flow Connection
Return Connection
Water litres
Content gals
Boiler Weight Dry kg
Boiler Weight Wet kg
SEDBUK Efficiency %
Factory Settings
Danfoss 60°ES
0.5 0.5 0.6
Danfoss 60°ES
0.6 0.65 0.75
7.0
�02
9.0
130
8.0
��6
8.0
��6
8.0
116
7.0
�02
��.5 11.5 ��.5 ��.5 11.5 ��.5
�.65
0.36
1.98
0.44
2.35
0.52
2.35
0.52
2.65
0.58
2.98
0.65
22mm Copper
�” BSP Female
22mm Copper
�” BSP Female
22
4.8
22
4.8
95
��7
92.2
95
��7
92.8
Highlighted in Bold
KP120HE
27.�
92,380
30
102,400
32.7
���,600
28
95,550
34
��6,000
RDB 2.2 26-33
T5S
N/A
�00 or �25
4 or 5
95 98 ��0
0
29
99,050
Danfoss 60°ES
0.75 0.85 0.85
7.0
�02
8.0
116
�0.0
�45
��.5 11.5 ��.5
2.98
0.65
3.40
0.75
3.8�
0.84
28mm Compression
�” BSP Female
22
4.8
95
��7
92.4
KP150HE
33
��2,629
44
�50,�28
33
��2,629
38.5
131,362
46.8
�59,68�
RDB 3.2 33-44
Adjustable @ setting 5
N/A
�00 or �25
4 or 5
75 90 �05
0
Danfoss 80°H
0.85 1.00 �.25
�0.0
�45
9.5
138
9.5
�38
��.5 11.5 ��.5
3.8�
0.84
4.48
0.99
5.25
�.�6
28mm Copper
�¼” BSP Female
45
9.9
�85
230
9�.9
40
136,139
Page 34
2.5.7 K-SeriesKabinPak–System(KSHE)
KS90HEKS70HEMODEL
Nominal kW
Heat Output Btu/hr
Nominal kW
Heat Input Btu/hr
Burner
Head
Secondary Air Damper
Flue mm
Diameter in
Flue Gas Temp °C
Smoke Bacarach
�4.7
50,000
17.6
60,000
2�
7�,650
2�
7�,650
23.5
80,000
27.�
92,380
�5.3
52,�50
18.4
62,600
22
75,000
22
75,000
24.4
83,175
28
95,550
RDB 2.2 �5-2� RDB 2.2 2�-26
T�SH T2SH
B N/A
�00 or �25
4 or 5
�00 or �25
4 or 5
86 88 90 90 93 95
0 0
KeroseneSettings
Nozzle make
size
Oil Pump bar
Pressure psi
Max CO2 %
Approx Fuel litres/h
Flow Rate gals/h
Flow Connection
Return Connection
Water litres
Content gals
Boiler Weight Dry kg
Boiler Weight Wet kg
SEDBUK Efficiency %
Factory Settings
Danfoss 60°ES
0.5 0.5 0.6
Danfoss 60°ES
0.6 0.65 0.75
7.0
�02
9.0
130
8.0
��6
8.0
��6
8.0
116
7.0
�02
��.5 11.5 ��.5 ��.5 11.5 ��.5
�.65
0.36
1.98
0.44
2.35
0.52
2.35
0.52
2.65
0.58
2.98
0.65
22mm Copper
�” BSP Female
22mm Copper
�” BSP Female
22
4.8
22
4.8
�05
�27
92.2
�05
�27
92.8
Highlighted in Bold
KS120HE
27.�
92,380
30
102,400
32.7
���,600
28
95,550
34
��6,000
RDB 2.2 26-33
T5S
N/A
�00 or �25
4 or 5
95 98 ��0
0
29
99,050
Danfoss 60°ES
0.75 0.85 0.85
7.0
�02
8.0
116
�0.0
�45
��.5 11.5 ��.5
2.98
0.65
3.40
0.75
3.8�
0.84
28mm Compression
�” BSP Female
22
4.8
�05
�27
92.4
Page 35
2.5.8 K-SeriesKabinPak–Combi(KCHE)
KC90HEKC70HEMODEL
Nominal kWHeat Output Btu/hr
Nominal kWHeat Input Btu/hr
BurnerHeadSecondary Air Damper
Flue mmDiameter in
Flue Gas Temp °CSmoke Bacarach
�4.750,000
17.660,000
2�7�,650
2�7�,650
23.580,000
27.�92,380
�5.352,�50
18.462,600
2275,000
2275,000
24.483,175
2895,550
RDB 2.2 �5-2� RDB 2.2 2�-26T�SH T2SH
B N/A
�00 or �254 or 5
�00 or �254 or 5
86 88 90 90 93 950 0
KeroseneSettings
Nozzle makesize
Oil Pump barPressure psi
Max CO2 %
Approx Fuel litres/hFlow Rate gals/h
Flow ConnectionReturn Connection
Water litresContent gals
Boiler Weight Dry kgBoiler Weight Wet kg
SEDBUK Efficiency %Factory Settings
Danfoss 60°ES0.5 0.5 0.6
Danfoss 60°ES0.6 0.65 0.75
7.0�02
9.0130
8.0��6
8.0��6
8.0116
7.0�02
��.5 11.5 ��.5 ��.5 11.5 ��.5
�.650.36
1.980.44
2.350.52
2.350.52
2.650.58
2.980.65
22mm Copper 22mm Copper
74�6.3
�402�4
90.0 90.0Highlighted in Bold
74�6.3
�402�4
DomesticHotWater(DHW)Production
Minimum Inlet Dynamic Pressure barfor Maximum DHW Flow Rate psi
Maximum AchievableDHW Flow Rate
Maximum Recommended litres/mDHW Flow Rate gals/m
Factory Set litres/mDHW Flow Rate gals/m
Minimum litres/mDHW Flow Rate gals/m
DHW Temperature Rise(at Maximum Output)
Pressure Relief barpsi
Cold Water Mains Inlet Connection
DHW Outlet Connection
�.826
�.826
Unrestricted Unrestricted
�84.0
245.3
�84.0
�84.0
2.50.55
2.50.55
32°C @ �8 litres/minfor �20 litre draw-off
32°C @ 24 litres/minfor �20 litre draw-off
343.5
343.5
Minimum �5mmUnrestricted
Minimum �5mmUnrestricted
22mm Copper 22mm Copper
22mm Copper 22mm Copper
Page 36
3.0 ElectricitySupply&WiringDetails
220 – 240V. �PH, 50 Hz
The boiler/burner and other external electrical equipment should be wired with heat resistant cable via a fused double pole isolating switch which should be fitted with a 5 amp fuse.
The appliance must be effectively earthed and all external wiring should comply with current IEE Regulations.
3.1 Dual-SafeThermostat(Non-CombiBoilers)
Warning: Do not fit any other wires or loop wires to this stat as this will bypass the thermostats.
3.2 RDBBurnerControlBox
CONTROL BOX535SE/LD
M
M
Oil Valve
Photoresistance
BlackWhiteBlue
Motor
Capacitor
Lock
Out
Live
Neu
tral
Ear
th
FanHousing
ToBurner
FromPowerSupply(SwitchedLive)
Page 37
3.3 CombiWiringDetails
3.3.1 WiringDiagram
The
3 pi
n m
ains
plu
g m
ust b
e su
pplie
d w
ith a
per
man
ent l
ive
to a
llow
the
pum
p ov
erru
n st
at a
nd re
lay
to o
pera
te c
orre
ctly.
Page 38
3.3.2 WiringSchematic
BU
RN
ER
D.H
.W.P
UM
P
C.H
.PU
MP
TRIPLEPOLERELAY
N.C
.
BO
ILE
RS
TA
T
N.O
.
N.C
.
N.O
.
N.O
.
N.C
.
C
C
C
COIL
7
202124
25
22
14
NN N
N
N
10
8
1
26
29
N26
2830
319
23
17
18
16
5
L1 NE
L1 N
MA
INS
PLU
GH
.W.
C.H
.
TA
NK
ST
AT
FLO
WS
WIT
CHT
AN
KLI
MIT
ST
AT
9
BO
ILE
RLI
MIT
ST
AT
15
2
13 1
6 4
MA
INS
ON
LAM
P(G
RE
EN
)
H/L
RE
SE
TLA
MP
(YE
LLO
W)
LOC
KO
UT
LAM
P(G
RE
EN
)LA
MP
716
BO
ILE
RLI
MIT
ST
AT
15
H/L
RE
SE
TLA
MP
(YE
LLO
W)
BR
EA
KIN
TO
TH
EW
HIT
EW
IRE
BE
TW
EE
NN
O16
ON
TH
EP
CB
AN
DT
HE
LIM
ITS
TA
TA
ND
CO
NN
EC
TIN
TH
EP
RE
SS
UR
ES
WIT
CH
WIT
HA
WIR
ING
BLO
CK
AS
SH
OW
N
LOW
PR
ES
SU
RE
SW
ITC
HLO
WP
RE
SS
UR
ES
WIT
CH
WIR
ING
ALO
WP
RE
SS
UR
ES
WIT
CH
12
WIR
ING
BLO
CK
COIL
N11
PU
MP
OV
ER
RU
NS
TA
T
PU
MP
OV
ER
RU
NR
ELA
Y
27
WIR
ING
BLO
CK
NC
NO
C
2 43
Page 39
3.3.3 FittingaRoomThermostattoaCombi
In order to provide frost protection for the fabric of the building a frost thermostat should be fitted in the coldest room in the house. To prevent over heating of the property a pipe thermostat should be fitted on the return pipe close to the boiler. The Kabin Pak Combi boiler is factory fitted with a frost thermostat as standard.
3.3.5 CombiPumpOverrunThermostat
The condensing Combi boilers have been fitted with a pump overrun thermostat. In order for the thermostat to work effectively the boiler must be supplied with a permanent live. Failure to do this will result in nuisance trip outs.
Remove the purple wire from no 5 and no 28 on the PCB and wire the thermostat as shown. The room thermostat should be located where it is not subjected to extraneous heat gains, direct sunlight or draughts.
3.3.4 FittingFrostProtectiontoaCombi
ROOM THERMOSTAT
282726
PCB
N5
29 30
FROST THERMOSTAT
PERMANENTLIVE
543 6
PIPE THERMOSTAT
Page 40
3.4 InstallationofaWarmflowCombiOptionalProgrammer(PC1)
�. Disconnect the electrical supply.
2. Drop down control box front (2 screws).
3. Disconnect the 6 pin plug from the CH/HW on/off switched.
4. With a sharp knife cut out the outline of the panel knockout through the facia label from the front of the panel.
5. With a hacksaw blade or snips remove the knockout piece ensuring that all metal tags or burrs have been removed from the hole.
6. Feed the programmer and harness through the hole from the front of the panel.
7. Secure in position by attaching the securing bracket to the rear of the programmer.
8. Plug the wiring harness into the 6 way socket.
9. Activate battery back up on the programmer by removing the plastic strip.
�0. Close the control panel cover and reconnect the electrical supply.
��. Using the operating instructions located towards to back of this manual or supplied with the programmer, set the switching times.
Page 4�
3.5 RemoteTimersforCombis
3.5.1 Installationofaremotetwochannelprogrammer(option1)
Connecting the programmer in this manner will bypass the CH and HW on/off switches on the boiler control panel. A separate connection to the boiler 3 pin mains plug is NOT required.
Inside the boiler control panel, remove the purple and white wires connecting terminals 5 and 3 on the terminal block with terminals �9 and 28 on the PCB.
Connect the programmer to the permanent live mains supply via a fused isolator as shown.
Connect the boiler to the programmer via a 5 core cable as shown ensuring that the earth is connected to one of the earth post inside the control panel and that the
permanent live is connected to terminal �2 on the PCB. Failure to connect the permanent live to the boiler in this way will prevent the mains lamp and pump overrun thermostats from operating. It will also prevent the built-in frost protection of a Kabin Pak Combi from operating.
3.5.2 Installationofaremotetwochannelprogrammer(option2)
Connecting the programmer in this manner will bypass the CH and HW on/off switches on the boiler control panel. The boiler and programmer will both be powered from the boiler 3 pin mains plug.
Inside the boiler control panel, remove the purple, white and brown wires connecting the CH and HW switches to the 6 pin connector of the terminal block.
Connect the programmer to the 6 pin connector via a 5 core cable as shown ensuring the earth is connected to one of the earth posts inside the control panel.
Connect the boiler 3 pin mains plug to a permanent live mains supply via a fused isolator. Failure to connect a permanent live to the boiler will prevent the programmer, boiler mains lamp and pump overrun thermostats from operating. It will also prevent the built-in frost protection of a Kabin Pak Combi from operating.
OFFOFFE N L
COM
ON
22 21 20 19
PCB CONTROLLER
ON
COM
CH HW
26 25 24 2328 27
1211
EARTHPOST
OFFOFFE N L
COM
ON ON
COM
CH HW
1
2
3
4
5
6
EARTHPOST
Page 42
3.6 OptionalProgrammer(PU1)forNon-CombiModels
3.6.1 ProgrammerControlBoxWiringDiagram
3.6.2 GeneralRequirements
�. The optional programmer as supplied will supply power to the pump and burner via the central heating channel.
2. When connecting to external controls, eg ‘Y’ plan or ‘S’ plan it will be necessary to remove the loop between 3 and �2 on the programmer terminal block.
3. The programmer is not suitable for gravity hot water systems.
Page 43
3.6.3 ProgrammerInstallation
�. Disconnect electrical supply.
2. Drop down control box front (2 screws).
3. Secure control box to the horizontal casing bracket (2 screws) and right hand side (� screw).
4. Connect the thermostat, circulating pump and the mains supply to the leads on the rear of the control box.
5. Two examples of system wiring are shown in the following sections.
6. If fitting the programmer to a Utility model without an integral pump, disconnect the pump plug from terminals � and 2 of the programmer terminal block and from the earth post. Remove the pump plug then wire the external plug into terminals � and 2 of the programmer terminal block and the earth post, feeding the wire in through the pump plug cable clamp.
7. Activate battery backup on programmer by removing the plastic strip.
8. Close the control panel cover (2 screws) and reconnect the electrical supply.
9. Using the operating instructions located towards the back of this manual or supplied with the programmer, set the switching times.
Page 44
3.6.4 Honeywell‘Y’Plan–IndependentCH&DHW(FullyPumpedOnly)
Note: Before fitting programmer remove loop between 3 and �2 on the terminal block.
Page 45
3.6.5 Honeywell‘S’Plan–IndependentCH&DHW(FullyPumpedOnly)
Note: Before fitting programmer remove loop between 3 and �2 on the terminal block.
Page 46
4.0 OilSupply
�. Oil Tank
Steel tanks constructed to BS799 : PART 5 should be painted on the outside only and mounted on piers to prevent corrosion. Plastic oil tanks are also available and can be suitable for installation at ground level. However, oil should never be stored in translucent plastic containers.
The tank outlet should be at a height to provide sufficient clearance to allow for proper maintenance of any isolation valve, oil filter or water separator fitted.
2. The pipe from the oil tank to the burner should be run in copper, steel or aluminium. Galvanised pipe and fittings should not be used. The pipework should terminate close to the boiler and be fitted with an isolating valve and filter. A remote sensing fire valve must be fitted to the oil line preferably before the oil line enters the building (BS54�0 : PART �).
Depending on the position of the tank a two pipe system may be required. One and two pipe oil systems are shown below. As an alternative to a two pipe system a Tigerloop or other approved de-aerator may be used.
4.1 OnePipeGravitySystem
HeadH(m)ID8mmID10mm
0.5 1 1.5 2�0 20 40 6020 40 80 �00
TotalMaximumPipeLength(m) Note: Plastic oil level gauges may shrink when exposed to kerosene thus allowing the ingress of water. Pump failures due to water contamination are not covered under the warranty.
Page 47
HeadH(m)ID8mmID10mm
0.5 1 2 335 25 �5 8�00 �00 70 30
0.530�00
3.5620
1.52090
TotalMaximumPipeLength(m)
4.2 TwoPipeSystem
Formaximumpipelengthandliftcontactde-aeratormanufacturer.
4.3 De-aeratorSystem
Page 48
HeadH(m)ID8mmID10mm
0.5 1 2 335 25 �5 8�00 �00 70 30
0.530�00
3.5620
1.52090
TotalMaximumPipeLength(m)
4.4 OnePipeLiftSystem
Note: The pump vacuum should not exceed a maximum of 0.4 bar. Above this gas is released from the oil thus leading to burner lock out.
Page 50
5.1.1 InstallationofaBalancedFlue(FBF)
�. Make a suitable sized hole in the wall or ceiling for the flue. For the dimensions of the boiler, see the Dimensions Section of this manual. For the dimensions of the flue system, see the Flue Kits & Dimensions Section of this manual.
Note: The cavities around the opening must be sealed and protected by a non-combustible sleeve.
2. Remove the top casing panel. If fitting a low level horizontal flue (FBF), remove the upper casing panel knockout from the appropriate side or rear panel using a pair of tin snips. Push the boiler into position against the wall then install the flue starter piece, securing it in position using the nuts provided and ensuring the black rubber gasket is correctly seated. The white fibre gasket supplied in the Flue Fittings Kit (FFK) is not required and should NOT be fitted.
3. If installing extension pieces, ensure the seals are correctly fitted and lubricated before pushing through the wall and into the starter piece.
Note: Refer to the Flue Options, Components and Dimensions Section for details of the maximum number of extension pieces and total flue lengths allowed.
4. If installing a vertical flue, correctly fit the flashing kit then slide the flue terminal into position with a twisting movement. Ensure that the terminal protrudes through the roof by a minimum of 665mm.
If installing a horizontal flue, slide the flue terminal into position with a twisting movement then seal the gap between the flue and the wall both inside and outside. Ensure that the terminal protrudes through the wall by a minimum of �75mm and a maximum of 225mm.
If installing a Plume Management Kit, fit the starter piece and horizontal terminal as described above then install the Plume Management Kit as instructed in the leaflet supplied with the kit.”
5. If installing a low-level horizontal flue, fit the terminal guard (basket) over the flue terminal using the cardboard mounting template supplied with the flue kit to locate and drill the necessary screw holes in the wall.
6. Remove the air inlet cover from the burner then fit the intake adaptor spigot and gasket. Connect one end of the air duct / hose to the flue and the other end to the adaptor spigot and secure.
Page 5�
5.2 ConventionalFlues
The flue system should be designed in accordance with local bye-laws and the Building Regulations. Draught stabilisers are not recommended for oil fired boilers. Sharp bends or horizontal runs should be avoided and the flue should terminate 2 feet (600mm) above the ridge of the dwelling. Terminals which restrict the discharge or allow ingress of water should be avoided.
When connecting to an existing masonry chimney, a flexible flue liner suitable for use with oil fired condensing boilers and of an appropriate diameter must be used. The annular space must be filled with insulation and sealed top and bottom. The starter piece should be sealed into the conventional flue adaptor using a high temperature silicone sealant, fire cement must not be used.
Only proprietary flue systems designed specificallyforusewithoil-firedcondensingboilersmaybeused.Thefluesystemmanufacturer’sinstallationinstructionmustbefollowed.
For recommended conventional flue systems, contact Warmflow.
5.3 LowLevelBalancedFlueTerminalPositions
Attention should be given to the position of the flue discharge; we recommend the following guidelines be adopted.
�. The flue should not discharge beneath opening windows or near other accesses to the building.
2. The flue should not discharge near internal/external corners of the building where turbulent wind conditions could occur.
3. A terminal guard must be fitted at all times.
4. The terminal should not discharge over property boundaries.
5. Discharge into narrow passageways should be avoided.
6. The location of the terminal and routing of the flue should be determined by the installer after consultation with the householder.
7. In positioning the flue the wind direction should be considered.
Installationinexposedpositionsisnotrecommended.
8. Account must be made of the pluming from the flue. If it is likely to be a nuisance to the householder the use of a vertical balanced flue or conventional flue should be considered.
Page 52
Theseareminimumdimensionsandareonlyquotedasaguidelines.
Terminatingpositionsmustbeatleast1.8metresfromanoilstoragetankunlessawallwithatleast30minfireresistanceandextending300mmhigherand
widerthanthetankisprovidedbetweenthetankandtheterminatingposition.
From an internal or external corner or surface or boundary alongside the terminal.F 300
Above ground or balcony level.G 300
From a surface or a boundary facing the terminal.H 600
From a terminal facing the terminal.J �,200
Vertically from a terminal on the same wall.K �,500
Horizontally from a terminal on the same wall.L 750
Above the highest point of an intersection with the roof.M 600
From a vertical structure on the side of the terminal.N 750
Above a vertical structure less than 750mm from the side of the terminal.O 600
From a ridge terminal to a vertical structure on the roof.P �,500
A 600Directly below an opening, air brick, opening window etc.
B 600Horizontally to an opening, air brick, opening window etc.
C 75
Below a gutter or a balcony without protection.D 600
From vertical sanitary pipework.E 300
Below a gutter, eaves or balcony with protection.
MINIMUMDISTANCESTOTERMINALSINMILLIMETRESASMEASUREDFROMTHETOPOFTHECHIMNEYORTHERIMOFALOWLEVELDISCHARGEOPENING
Page 53
6.0 AirSupplyforCombustion&Ventilation (seeBS5410)
6.1 OpenFlueBoilers
When the boiler is sited in a cellar where the only access for combustion and ventilation air is at high level then the combustion air should be ducted to low level.
Combustion Air Supply
Boiler in Room
Boiler in Compartment
6.2 BalancedFlueBoilers–BoilersinaCompartment
Air Supply for VentilationNo Combustion Air Inlet required to Room
Page 54
7.0 InstallationRequirements
The boiler installation must be in compliance with BS54�0 : PART � and the Building Regulations.
7.1 GeneralRequirements
7.1.1 Hearth
The boiler has a hearth temperature of between 50°C and 85°C and should be stood on a rigid, non-porous, non-combustible base, which is not softened by warmth, to comply with the Building Regulations.
7.1.2 ServiceAccess
24” (600mm) Clearance should be provided above and in front of the boiler to allow for routine servicing. Pumped, System and Combi models may require access to the top.
7.1.3 HeatingSystem
The heating system should be installed to HVCA current codes of practice. Before installing the boiler the new or existing system must be thoroughly flushed to clear all sludge or other foreign matter such as solder, steel wool and copper filings. The system must be cleansed, neutralised and protected from corrosion in accordance with BS5449 and BS7593 using suitable cleansing agent(s) and inhibitor(s) and carried out in accordance with the cleanser / inhibitor manufacturers’ instructions. The system must be dosed to the concentrations specified by the inhibitor manufacturer (refer to the Technical Data section of this manual for the volume of the boiler when calculating the total system volume). Failure of components such as, but not limited to, pumps, auto air vents, pressure relief valves, plate heat exchangers and non-return valves due to corrosion product in the system will not be covered by warranty.
7.1.4 AirVents
The plastic plugs of the auto air vent(s) factory-fitted to the boiler must be loosened when filling the system in order to bleed the air from the boiler. In addition to any factory fitted air vents it is recommended that another air vent is fitted at the highest point in the system. Where the flow pipework drops down from the boiler the installer must ensure that an automatic air vent is fitted to the top of the pipework to prevent air being trapped in the boiler.
7.1.5 DrainCock
For all appliances not factory-fitted with drain cocks, one should be fitted to the boiler drain boss located to the left hand side of the burner. Drain cocks should also be fitted to the lowest points in the system to allow the system to be completely drained.
7.1.6 FrostProtection
Where there is a risk to the boiler or installation from frost then a suitable frost thermostat should be fitted. Alternatively the system could be dosed with an anti freeze agent. The Kabin Pak Combi boiler is factory fitted with a frost thermostat as standard. For all other Kabin Pak models covered by this manual a Frost Thermostat Kit (Code FSK�) is available as an optional extra.
7.1.7 Pipework
We strongly advise that all installation pipework is run in copper. However, if plastic pipe is used, it must be recommended by the pipe manufacturer for use with oil fired appliances and, in any case, the last �000mm of pipework connected directly to the appliance must be of copper. All connections to the appliance must be made with compression fittings.
Page 55
7.2 SealedSystems7.2.1 ExpansionVessel
Refer to BS7074: PART � and BS5449 for details of expansion vessel sizing. The values given in the table below are for total system volumes which include the primary water capacity of the boiler which can be found in the Technical Data section of this manual. System and Combi models up to �20HE are supplied with a �2 litre expansion vessel charged to �.0 bar. This can accommodate a maximum combined boiler and system volume of ��0 litres. Where permitted by the type, size and configuration of heating system the expansion vessel bladder pre-charge pressure can be reduced, prior to filling the system, to 0.5 bar in order to accommodate a total system volume of �45 litres. If these maximum total system volumes are exceed, additional expansion capacity will be required.
7.2.2 SystemFilling
For all System and Combi boilers a filling point complete with a filling loop is supplied fitted to the expansion vessel. The filling loop must be disconnected from the mains supply after filling. A system pressure when cold of � bar is recommended. After filling, vent all air from the system. The plastic plugs of the auto air vent(s) factory-fitted to the boiler must be loosened when filling the system in order to bleed the air from the boiler.
7.2.3 SystemPressure
Water loss from the system as indicated by a reduction in pressure on the pressure gauge may be made up through the filling loop. In the first week of operation it is normal to see a drop in system pressure. After this time the system pressure must be rechecked and the system refilled. Failure to do so may lead to boiler faults.
7.2.4 PressureReliefValve
Any pressure relief valve fitted to the boiler or system must be able to discharge externally to a drain where the discharge can be seen but cannot cause any injury or damage. No other valves should be positioned between the relief valve and discharge termination.
7.2.5 LowPressureSwitch
Where there is a catastrophic loss of water from the system the boiler thermostats may fail to operate which would result in serious damage to the appliance. To prevent this it is recommended that a low pressure cut out switch set at 0.2 bar is fitted to thesystem and wired in series with the boiler limit thermostat.
25.0
32.7
46.8
300
VESSELVOLUMES
22.9
30.0
42.9
275
20.8
27.2
39.0
250
�8.7
24.5
35.�
225
�6.7
2�.8
3�.2
200
�4.6
�9.�
27.3
�75
�2.5
�6.3
23.4
�50
�0.5
�3.6
�9.5
�25
8.3
�0.9
�5.6
�00
6.3
8.2
��.7
75
4.2
5.4
7.8
50
2.�
2.7
2.9
25
0.5
�.0
�.5
TOTALSYSTEMVOLUME
INIT
IAL
CH
AR
GE
When measuring the expansion vessel bladder pre-charge pressure, using a tyre gauge, the system should be cold and the system pressure should be relieved (by manually operating the system pressure relief valve) in order to obtain an accurate reading.
Page 56
7.3 CombiDomesticHotWater
7.3.1 MainsWaterPressure
To protect the appliance and to prevent excessive flow rates, a pressure reducing valve must be fitted to limit the maximum supply pressure to 3 bar. We strongly advise that all installation pipework is run in copper. However, if plastic pipe is used, it must be recommended by the pipe manufacturer for use with oil fired appliances and, in any case, the last �000mm of pipework connected directly to the appliance must be of copper. Whenever a pressure reducing valve or other device containing a non-return valve is fitted to the mains water supply entering the boiler, a mini expansion vessel must be fitted after the device in order to protect the appliance from the expansion due to heating of the water in the domestic hot water pipework. Note that the flow rate from individual taps is dependant on the number of outlets being operated together, as well as the length and size of pipework and the mains supply pressure.
7.3.2 WaterHardness
Although many of the DHW components are designed to resist lime scale formation, in areas of hard water it may still be necessary to fit an inline chemical water softener. For further information contact Warmflow and your local water company.
7.3.4 FlowRestrictor
An �8L/min flow restrictor has been factory fitted but can be easily removed if required.
7.3.5 Boreholes
Where the mains water supply to the boiler is fed from a borehole via a pump and accumulator arrangement the variable pressure can cause the mixer valve to go to its fail safe settings thus preventing the outlet water temperature from achieving a suitable level. In order to minimise the pressure variations it is recommended that differential on the borehole pump pressure switch is kept as low as possible without adversely affecting the pump motor. The accumulator must be as large as possible in order to reduce the rate of pressure change and a pressure reducing valve (PRV) must be situated between the pump and accumulator and the boiler. The PRV must be set slightly below the minimum setting of the pressure switch on the pump.
FLOWSWITCHFLOWRESTRICTORWASHER
Page 57
8.0 Burners
8.1 RDBBurner
8.2 OilPump
The burner is supplied for use with a one pipe system. For use on a two pipe system, it is necessary to remove the return port plug and fit a small by-pass plug as shown.
1. Pump2. ControlBox3. ResetButtonwithLock-OutLamp4. FlangewithInsulatingGasket
5. AirDamperAdjustmentScrew6. AirTubeConnection(SuppliedwithBFKit)7. PumpPressureAdjustmentScrew8. PressureGaugePort
1. SuctionLine2. ReturnLine3. By-PassScrew4. GaugeConnection5. PressureAdjuster6. SuctionGaugeConnection7. Valve8. AuxiliaryPressureTestPoint
Page 58
8.3 ElectrodeSetting
8.4 BurnerStart-UpCycle
8.5 AirDamperAdjustment
The air damper is set in factory. This regulation is purely indicative. Each installation however, has its own working conditions: actual nozzle output; positive or negative pressure in the combustion chamber, the need of excess air, etc. All these conditions may require a different air damper setting.
Air Damper (A) – The main air damper can be set in either of two positions. To set the positions of the damper, proceed as follows: Remove the secondary air damper (B) loosening the screws (�). Loosen the screw (2) and rotate the main air damper (A) to the required position. Retighten the screw (2) and put back the secondary air damper (B).
Air Damper (B) – The purpose of this damper is to perform a fine-tuning of the inlet air. Tuning of this device is possible by turning the screw (3).
AirDamper(A)–15/21BurnerOnly AirDamper(B)
~12s
Thermostat
Motor
Ignition Transformer
Valve
Flame
Lock-Out Lamp
~12s
Normal Lock-outduetofailuretolight
~5s
Whenremovingorreplacingthenozzle,movetheelectrodesforwardtoavoidtheriskofdamage.Theelectrodesareslackenedbyunscrewingthebrasspostthatpassesfromtheelectrodeholderoutofthesideoftheburner.Whenworkiscomplete,ensuretheelectrodesareresetasshownandsecuredbytighteningthebrasspost.
Page 59
9.0 Commissioning&Servicing
9.1 Commissioning
Note:It is the responsibility of the installer toensure that theboiler isproperlycommissionedbyanOFTECtrainedandregisteredtechnician.FailuretodosoWILLinvalidateALLwarranties.
Before firing ensure that all the baffles are in place, as they may have been displaced during transit; Refer to the General Information section. Switch the boiler on, ensuring all controls are calling for heat.
The oil pump pressure must be checked by fitting a pressure gauge to the pump
pressure port. If necessary the pressure should be adjusted until it corresponds with the value in the Technical Data section for the required output. Using a smoke pump, check the smoke number. It should be zero.
Using a flue gas analyser, check the CO2 content and flue gas temperature once
the boiler is hot. Testing while the boiler is still relatively cold gives inaccurate results and leads to incorrect adjustments being made.
Where a balanced flue has been fitted ensure the air duct connecting the flue and burner has been properly connected before commissioning.
To comply with the building regulations OFTEC form CD�� should be completed and a copy left with the householder.
9.2 Servicing
9.2.1 GeneralRequirements
It is recommended that the appliance is serviced annually by a Warmflow or an OFTEC registered service technician in accordance with the recommendations laid out in OFTEC’s technical information book 2 – ‘Pressure Jet Appliances – Commissioning Requirements for Technicians’.
Additionally, when servicing, special attention should be paid to the condition of the oil nozzle, flexible oil line, fuel filter, door insulation, sealing rope and secondary heat exchanger door seal. If found to be defective they must be replaced.
The system corrosion inhibitor level must be checked (instant on-site test kits are available from inhibitor manufacturers) and additional inhibitor must be added if the system is found to be under-dosed. Refer to the inhibitor manufacturer for further guidance.
Note:All product warranties will be invalidated if the appliance is not servicedannuallybyaWarmfloworOFTECtrainedandregisteredtechnician.
Page 60
10.0 BurnerFaultFinding
10.1 RielloRDB
OK
YE
SY
ES
YE
S
NO
NO
NO
YE
S
NO
NO
NO
NO
NO
NO
NO
NO
NO
YE
SY
ES
YE
S
Bur
ner
Mot
or R
uns
Lock
Out
with
in1
seco
nd
Lock
Out
aft
er12
sec
ond
pur
ge
Igni
tion
Sp
ark
Pro
ved
Pum
pP
rod
uces
Pre
ssur
e
Noz
zle
Ato
mis
ing
Fuel
Com
bus
tion
Air
Set
Cor
rect
Com
bus
tion
Hea
d S
etC
orre
ct
Che
ckL
& N
to
Con
trol
Box
Mot
or o
rP
ump
Sei
zed
Rep
air/
Rep
lace
Mot
or/P
ump
Che
ck a
nd S
etth
e E
lect
rod
es
Was
hing
Pre
ssur
e1-
2 B
ar
Sol
enoi
dO
per
atin
gR
aise
Pre
ssur
e
Rep
lace
Noz
zle
Flam
e O
ffan
d R
e-Li
ghts
Che
ckB
oile
r C
ontr
ols
Rep
lace
Mot
orC
apac
itor
Rep
lace
the
Con
trol
Box
Driv
e C
oup
ling
Bro
ken
Rep
lace
the
Coi
l and
/or
Ste
m V
alve
Con
tam
inat
edFu
el F
ilter
Boi
ler
or F
lue
Blo
cked
Rep
air
orR
epla
ce O
ilP
ump
Mot
or g
ives
50 V
olts
to
Whi
te W
ire
Coi
l of
Sol
enoi
dFu
nctio
nal
Pho
to C
ell
Func
tiona
lR
epla
ceC
ontr
ol B
ox
If B
/Fap
plic
atio
nre
mov
e b
urne
rsn
orke
l tub
ean
d r
etes
t
Rep
lace
Bur
ner
Mot
orR
epla
ceS
olen
oid
Coi
lR
epla
ceP
hoto
Cel
lR
eset
B/F
Flu
eor
Rep
ositi
on
YE
SN
OY
ES
YE
SY
ES
YE
SY
ES
NO
NO
NO
Page 6�
11.0 CombiFaultFinding
11.1 CentralHeating
YESYES
YES
NO
YES
YES
NO
YES
NO
NO
NO
Switch on power,set selectors
for CH on andDHW off.
Set all controlsto call for heat.
Does theburner fire?
Is lockout lampon burner or
panel lit?
Is high limitthermostatlamp lit?
Is there continuityacross the boilerstat connections17 and 18 on the
PCB?
Is there continuityacross the
connections28 and 30 on
the PCB?
Check powerfrom clock orswitch, check
wiring fuses andmains supply.
Refer to burnerfault finding.
Press resetbutton, replace
if necessary.
Check wiring,replace boilerthermostat.
Check relay andPCB, replace if
necessary.
Do radiatorsget hot?
Does boilercycle on itsthermostat?
Check all valvesare open and
pump is working,check pressure,check all air is
vented.
Check boilerthermostat,replace if
necessary.
HEATINGISWORKING
NORMALLY
NO
NO
YES
Page 62
11.2 DomesticHotWater
Switch on power,set selectors to CH
off and DHW on.
Is DHW pumpworking?
Is there continuityacross connection 20and 21 on the PCB?
Check wiring, replacetank thermostat.
Is there continuityacross 25 and 27?
Check wiring, replacerelay, replace PCB.
Check wiring,replace pump.
Does burner fire? Do radiators get hot?Check plumbing,
replace non-returnvalve.
Refer to burnerfault finding.
Is lockout lamp onburner or pump lit? Does tank get hot?
Vent all air from systempumps, ensure allvalves are open.
Press reset button,replace limitthermostat.
Is high limitthermostat lamp lit.
Does boiler shut downwhen tank reaches
temperature?
Replace tank stat,replace relay.
Check wiring, replacetank limit stat.
Is there continuinityacross 23 and 22?
With tap closed, switchthe CH switch to on.
Check wiring, replacerelay, replace PCB.
Is there continuinityacross 22 and 16? Do radiators get hot? Check CH fault finding.
Check power fromclock or switch, checkwiring, check fuses.
Does CH pump stopwhen tap is opened?
Check flow switch,check relay.
Is hot water producedwhen tap is opened.
BOILERISWORKINGNORMALLY
NO NO
NO
YES
NO
NO
NO
YES
YES
YES
NO
NO
NO
NO
YES
YES
NO
YES
YES
YES
YES
YES
Check mixer valve,check plate heat
exchanger for blockage,ensure all air is vented
from boiler.
YES
YES
NO
NO
NO
YES
Page 63
12.0 OptionalBoilerMountedDigitalTimer
12.1 OperatingInstructions
12.1.1 AfterInstallation
When you first install the Cr2032 battery (by removing the clear plastic strip from the rear of the timer) you must press the ‘RESET’ button, the LCD display will display fully for 3 seconds. Then LCD display will change to ‘5:2d’. You can press DAY button to select ‘7d’, ‘24H’ programme mode.
This configures the timer as follows:
5/2d: 5 day/2 day programme option allows different ON/OFF times on weekday and weekend.
7d: 7 day programme option allows different programme setting on each day of weekday and weekend.
24H: 24 hours programme option runs same programme every day.
When you finalise the setting, press the CLOCK button for normal operation.
Page 64
12.1.2 BuiltinProgramme
For convenience, the timer module has a built in programme, however, it can be easily adjusted (see section �2.5 To Change the Programmes).
The timer offers 3 options for both CH and HW programme period.
OFF: Off all the time.
AUTO: To run your time schedule for period one or two or three each day.
ON: Turn on all the time.
FactoryPresentTimeSchedule
12.1.3 ToSetCurrentTime&Day
�. Press and hold CLOCK button then press DAY button to select current day of the week.
2. Press and hold CLOCK button then press HOUR button until the correct hour is displayed.
3. Press and hold CLOCK button then press MINUTE button until the correct minute is displayed.
12.1.4 SelectOperationMode
Press CH SELECT / HW SELECT button to select operation mode to be OFF, AUTO, ON.
22:3022:30
�6:30
�4:00
�2:00
�0:30
07:30
22:3022:30
�6:30
�4:00
�2:00
08:30
06:30
HW/CH2CH/CH1
�6:30
�4:00
�2:00
08:30
06:30
�6:30
�4:00
�2:00
�0:30
07:30
HW/CH2CH/CH1
Mon–FriTimeSchedule
Mon–FriTimeSchedule
PERIOD � ON
PERIOD � OFF
PERIOD 2 ON
PERIOD 2 OFF
PERIOD 3 ON
PERIOD 3 OFF
Switching
Page 65
SetDayProgrammePeriod1On/Off
22:30
07:30
22:30
06:30
HW/CH2CH/CH1
22:30
06:30
22:30
07:30
HW/CH2CH/CH1
Mon–FriTimeSchedule
Mon–FriTimeSchedule
PERIOD � ON
PERIOD � OFF
Switching
SetDayProgrammePeriod3On/Off
22:3022:30
�6:30
�4:00
�2:00
�0:30
07:30
22:3022:30
�6:30
�4:00
�2:00
08:30
06:30
HW/CH2CH/CH1
�6:30
�4:00
�2:00
08:30
06:30
�6:30
�4:00
�2:00
�0:30
07:30
HW/CH2CH/CH1
Mon–FriTimeSchedule
Mon–FriTimeSchedule
PERIOD � ON
PERIOD � OFF
PERIOD 2 ON
PERIOD 2 OFF
PERIOD 3 ON
PERIOD 3 OFF
Switching
SetDayProgrammePeriod2On/Off
�0:30
07:30
22:30
�6:30
08:30
06:30
HW/CH2CH/CH1
22:30
�6:30
08:30
06:30
�0:30
07:30
HW/CH2CH/CH1
Mon–FriTimeSchedule
Mon–FriTimeSchedule
PERIOD � ON
PERIOD � OFF
PERIOD 2 ON
PERIOD 2 OFF
Switching
22:30
�6:30
22:30
�6:30
12.1.5 ToSetProgrammePeriod
Press and hold DAY button and press MIN until the correct programme period is displayed.
12.1.6 ReviewingtheProgrammes
Press TIMER button each time to toggle through the ON and OFF settings.
12.1.7 ToChangetheProgramme
�. Press TIMER key repeatedly until the particular ON or OFF time appears.
2. Press HOUR button and MINUTE button to set new ON or OFF time.
Page 66
12.1.8 ManualSelect
�. Press SELECT to toggle through ON/AUTO/OFF modes as indicated by the timer status.
2. ON mode turns on the timer.
3. OFF mode turns off the timer.
4. AUTO mode runs the set programme.
12.1.9 ManualSelect
This function is only applicable when your timer is set on AUTO mode.
You can temporarily override the normal switching times by pressing the ADV key. The temporarily override won’t affect the normal programme after execution of the override.
�. Press CHADV or HWADV key the CH icon or HW icon will flash.
2. In approximately 5 seconds the display CH select mode ‘AUTO’ or HW select mode ‘AUTO’ will flash and go into the manual override function.
3. OFF mode turns off the timer.
4. To cancel override by pressing CHADV or HWADV and the ‘AUTO’ will stop flash.
12.1.10 ManualHour
�. Press CHADV or HWADV key, the CH icon will flash.
2. You now have approx 5 second to enter desired length of time by pressing CHADV or HWADV key once for each hour the new time set should be in affect.
3. The MANUAL HOUR function will bring the unit ON � hour to 3 hours in the OFF mode.
4. The MANUAL HOUR function will bring the unit OFF � hour to 3 hours in the ON mode.
5. The MANUAL HOUR function is in operation, a count down clock will appear. Then normal display and count down clock will appear on the LCD alternately.
6. The MANUAL HOUR function will bring the unit ON � hour to 3 hours in off, clock will count down immediately.
7. When MANUAL HOUR function will extend by � hour to 3 hours while ON, clock will count down after the programmed ON is finished.
12.1.11 CancelManualHourFunction
Press CHADV or HWADV button again the LCD display and switching status will return to normal.
Page 67
13.0 Spares
13.1 RDB2.2Spares
No CODE 3514157 3514257 3514557 DESCRIPTION
� 3005787 • • • Gasket
2 3006384 • • • Flange
3 3020494 • Cup-Shaped Head
3 3020258 • Cup-Shaped Head
3 3020055 • Cup-Shaped Head
4 3008860 • • • Electrode Assembly
5 3008875 • • • Screw
6 300886� • • • Nozzle Holder
7 3008862 • • • Collar
8 3008794 • • • High Voltage Lead
9 3008647 • • Air Damper Assembly
9 3008839 • Air Damper Assembly
�0 3005788 • • • Fan
�� 3008646 • • • PE Cell
�2 3002837 • • • Capacitor 4.5µF
�3 3007582 • • • Needle Valve
�4 300865� • • • Regulator
No CODE 3514157 3514257 3514557 DESCRIPTION
�5 3000439 • • • Pump Seal
�6 3020475 • • • Pump
�7 3007�62 • • • O-Ring
�8 3008653 • • • Filter O-Ring
�9 3003602 • • • Connector
20 3005720 • • • Flexible Oil Line
2� 3008644 • • • Tube
22 3008876 • • • Pressure Gauge
23 3000443 • • • Joint
24 3008648 • • • Coil-Shell & Knob
25 3002836 • • • Motor & Capacitor
26 3008649 • • • Protection
27 3008652 • • • Control Box 535RSE/LD
28 300885� • • • Lead Coil
29 3008879 • • • Cover
30 3008878 • • • Kit Seals
1814
13
15
16
17
1
2
6 7
27
8
24
23
22
12
11
10
330
30
26
28
25
21
19
20
30
29
4 9
2908126 (5) - 05/2008 Catalogo ricam
biSpare parts listC
atalogue pièces détachéesE
rsatzteile Katalog
Catálogo recam
bios
RD
B2.2 15-21
CO
D.3514157
TIPO / TYPE / TYP 744 T1K
RD
B2.2 21-26
CO
D.3514257
TIPO / TYPE / TYP 744 T2K
RD
B2.2 25-34
CO
D.3514557
TIPO / TYPE / TYP 744 T5K
Bruciatori di kerosene •K
erosene burners •Brûleurs kérosène
Kerosin - G
ebläsebrenner •Quem
adores de kerosene
Page 68
13.2 RDB3.2Spares
No CODE 3748941 DESCRIPTION
� 3005795 • Gasket
2 3008637 • Flange
3 30057�4 • End Ring
4 30057�3 • Diffuser Disc
5 30077�4 • Blast Tube Assembly
6 3006552 • Electrode Bracket
7 30075�3 • Electrode Assembly
8 3008794 • High Voltage Lead
9 3008957 • Collar
�0 3008876 • Pressure Gauge
�� 3008839 • Air Damper Assembly
�2 3008958 • Deadening
�3 3008962 • Cover
�4 3008646 • PE Cell
�5 3005799 • Fan
�6 3008955 • Nozzle Holder
�7 3008960 • Capacitor 5 µF
No CODE 3748941 DESCRIPTION
�8 3003602 • Connector
�9 3005720 • Flexible Oil Line
20 3008964 • Motor
2� 3000443 • Joint
22 3008648 • Coil-Shell and Knob
23 3008649 • Protection
24 3008652 • Control Box 535SE/LD
25 300885� • Lead Coil
26 300896� • Tube
27 3020475 • Pump
28 3008653 • Filter - O-Ring
29 3007582 • Needle Valve
30 300865� • Regulator
3� 3000439 • Pump Seal
32 3008963 • Kit Seals
33 3008959 • Air Intake
Page 69
13.3 PipeSpares
Utility Pumped & System Models - UP70HE, UP90HE, UP�20HE, US70HE, US90HE & US�20HE
Kabin Pak Pumped & System Models - KP70HE, KP90HE, KP�20HE, KS70HE, KS90HE & KS�20HE
�50HE Pumped Models - UP�50HE & KP�50HE
PumpFlowPipe(22mm)
3015
PumpFlowPipe(22mm)
3015
ExpansionVesselPressureHose
3020
FromBoilertoPump(22mm)
3017
FromBoilertoPump(28mm)
3426
PumpFlowPipe(28mm)
3425
ExpansionVesselPressureHose
3020
FromBoilertoPump(22mm)
3017
Page 70
13.3 PipeSparescont’d
Utility and Kabin Pak Combi Models - UC70HE, UC90HE, KC70HE & KC90HE
FromBoilertoGateValve3097
CHFlowfromPump3100
FromGateValvetoPump
3098
FromPlateHeatExchangertoBoiler
Return3096
FromHeatStoretoPlateHeatExchanger
1997
FromFlowswitchtoMixingValve&PlateHeatExchanger
1992
FromPlateHeatExchangertoMixingValve
1994
DHWFlowfromMixingValve3101
FromStrainertoFlowswitch&FillingLoop3099
ExpansionVesselPressureHose
3020
Page 7�
13.4 ShortPartsList–Boiler
PartDescription Code
Flow Switch �476
Tank & Boiler Control Thermostat 2�3�
Boiler Limit Thermostat (Combi Models) 28�
Tank Limit Thermostat 2�26
Pump Overrun Thermostat 3�08
Plate Heat Exchanger 599
Twin Head Pump 2�30
�5/60 Pump (for replacement head) 602
3 Pole Relay �827
Auto Air Vent C/W Check Valve 6�4
Pressure Relief Valve 2�32
Filling Loop 2�33
Pressure Gauge 30�9
Mixer Valve �62�
PCB Controller MK4 24�9
�2 Litre Pressure Vessel 2�28
Single Pole Relay & Base 3074
Dual-Safe Thermostat for Non-Combi Models WDS2
Optional Programmer for Combi Models PC�
Optional Programmer for Non-Combi Models PU�
When ordering replacement casing panels it should be noted that due to the painting process there may be some variation in colour.
Page 72
14.0 YourGuarantee,Terms&Conditions
1. WarmflowGuarantees
The boiler, including all controls, plate heat exchangers and associated equipment contained within the boiler casing, the burner and flue system if supplied by Warmflow against defective parts and faulty workmanship, for period of �2 months from the date of installation, providing the boiler is installed and commissioned in accordance with the installation instructions supplied with the boiler. The period of guarantee will be increased to 24 months in Great Britain providing:
• The guarantee registration form is fully completed and returned to Warmflow within 30 days from the date of installation, or 90 days from the date code stamped on the appliance.
• The boiler must be installed and commissioned by a Warmflow or other competent engineer, who is OFTEC registered. Commissioning of the boiler must be completed immediately after the boiler is installed.
• The boiler must be serviced by a Warmflow or other competent engineer, who is OFTEC registered, �2 months after the date of installation and thereafter, at �2 monthly intervals.
NOTE: In Northern Ireland and theRepublic of Ireland the period ofguarantee can only be increased to24monthsthroughthepurchaseofanextendedwarranty.
The water jacket and thermal store (in the case of a combination boiler) for a total of 5 years from the appliance date code, subject to the above conditions being complied with.
Warmflow reserves the right to repair or replace components within the guarantee period at a time and location that is most convenient to the company.
2.ConditionsofGuarantee
The boiler must be installed, commissioned and serviced in accordance with the installation instructions supplied with the boiler.
Warmflow will accept no liability for the cost of repairs resulting from incorrect installation, inadequate commissioning, lack of regular maintenance, misuse, tampering or repair by unqualified persons.
All repairs must be authorised in writing by Warmflow prior to any work being carried out. Unauthorised claims are not covered by the guarantee.
Labour charges associated with the replacement of heat exchangers or thermal heat stores will be calculated on a sliding scale depending on the boiler output up to a set maximum. Contact Warmflow for current prices.
Faults and any associated costs occurring due to lack of fuel, power, water supply or scale formation are not covered by these guarantees.
Claims for consequential loss or damage are not covered by these guarantees.
In the event of a breakdown pleasecontact your commissioning engineerwho should then contact our servicedepartment whilst at your home, toreportthefault.
The statutory rights of the customer are not affected by the guarantee.
NB: The nozzle supplied with the boiler is deemed to be an expendable item and is therefore excluded from the guarantee.
Page 73
COMMISSION
Commission/ServiceRecord Boiler Serial No |__|__|__|__|__|__|__|__|
In order that your boiler gives you many years of economical trouble free use and to validate the warranty, this boiler must be commissioned upon installation and serviced annually. Contact Warmflow for an approved engineer within your area.
SERVICE 1
SERVICE 3SERVICE 2
SERVICE 5SERVICE 4
SERVICE 7SERVICE 6
SERVICE 9SERVICE 8
Date of Commission ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
Date of �st Service ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
Date of 3rd Service ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
Date of 2nd Service ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
Date of 5th Service ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
Date of 4th Service ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
Date of 7th Service ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
Date of 6th Service ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
Date of 9th Service ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
Date of 8th Service ______________________
Company Name ______________________
Engineer Name ______________________
Engineer Signature ______________________
Telephone No ______________________
YOUR DETAILS
Mr/Ms/Mrs/Miss Initials Surname|__|__|__|__| |__|__|__|__| |__|__|__|__|__|__|__|__|__|__|__|__|__|
Home Telephone No (inc code) Mobile Telephone No|__|__|__|__|__|__|__|__|__|__|__|__|__| |__|__|__|__|__|__|__|__|__|__|__|__|__|
Email Address|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|
House Number/Name/Street|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|
Town/City|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|__|
County Postcode|__|__|__|__|__|__|__|__|__|__|__|__|__| |__|__|__|__|__|__|__|__|
PRODUCT DETAILS(found on warranty label located on the front or inside front of the appliance)
Appliance Type Serial Number|__|__|__|__|__|__|__|__|__|__|__|__|__| |__|__|__|__|__|__|__|__|
Date of Installation|__|__|__|__|__|__|__|__|
NAME OF INSTALLER
Mr/Ms/Mrs/Miss Initials Surname|__|__|__|__| |__|__|__|__| |__|__|__|__|__|__|__|__|__|__|__|__|__|
Work Telephone No (inc code) Mobile Telephone No|__|__|__|__|__|__|__|__|__|__|__|__|__| |__|__|__|__|__|__|__|__|__|__|__|__|__|
NAME OF COMMISSIONING ENGINEER
Mr/Ms/Mrs/Miss Initials Surname|__|__|__|__| |__|__|__|__| |__|__|__|__|__|__|__|__|__|__|__|__|__|
Work Telephone No (inc code) Mobile Telephone No|__|__|__|__|__|__|__|__|__|__|__|__|__| |__|__|__|__|__|__|__|__|__|__|__|__|__|
Your details will be used by Warmflow Engineering to provide customer services, information about extended warranties and for other marketing purposes. We will disclose your information to our service providers and agents for these purposes. Your details may also be used by other third parties for other marketing purposes. We and the third parties may contact you by mail, email or telephone. If you do not wish for us to use your data for other marketing purposes please put an X in this box
To help keep your details accurate we may use information we receive from our partners. You can ask for a copy of your details (for a small fee) and to correct any inaccuracies. To make sure we follow your instructions correctly and to improve our service we may monitor or record our communications with you. Please note that failure to provide some or all of the information requested does not affect your statutory rights but may affect the quality of the service provided.
TEA
R A
LON
G P
ER
FOR
ATION